System and method of managing communications policy settings in a wireless network

ABSTRACT

The present invention provides a system and method of modifying policy settings in a network having a plurality of subscriber devices. An embodiment includes a plurality of base stations, each capable of wirelessly transmitting across a geographic region and a server. A cell-phone, capable of roaming between regions, is operable to establish a wireless link with the base stations and through the base stations, with the server. The network contains a communication policy determining from which other communication devices a subscriber device can receive voice calls. The communication policy is updated, by the server, based on requests from the subscriber devices. Once a request is received from a subscriber device, the determination whether to update the communication policy can be based on a record of rejections respective to the caller requested to be blocked. Alternatively, the communication policy can be updated according to a trust policy maintained on the server respective to the subscriber device making the request; the trust policy represents the procedure to follow when a request is received from that subscriber device.

FIELD OF THE INVENTION

The present invention relates generally to wireless telecommunicationand more particularly to a system and method of managing communicationspolicy settings in a wireless network.

BACKGROUND OF THE INVENTION

Mobile telephonic devices (“cell-phones”) capable of wirelesscommunications are increasingly commonplace. Cell-phones typicallyintegrate a variety of functionality into a single device, but theability to carry out voice telecommunications remains central to thedevices' purpose. Nokia of Keilalahdentie 2-4, Finland and Motorola Inc.of Schaumburg, Ill., U.S.A. are two examples of manufacturers of suchcell-phones, and each offer a variety of products in this category.

A typical cell-phone contains a communications interface forestablishing wireless communications with telephony networks (“wirelessnetworks”). In addition, a typical cell-phone also has a microcomputerwhich controls most of the functionality of the cell-phone and aids inprocessing of information that the cell-phone is presented with.

As part of its functionality, a cell-phone is called upon to establishcommunications with the wireless networks by accessing different networkbase stations as the user of the cell-phone roams through differentgeographic regions served by these base stations. Accordingly, acell-phone is able to establish communications with other communicationsdevices through the wireless network, allowing the cell-phone to placecalls to and to receive calls from these other devices.

As the volume of communications in wireless networks grows, so does thevolume of unwanted and unsolicited communications. These communicationsusually originate from mass marketing sources, but can be from otherentities as well. Unwanted calls, in addition to being inconvenient, canbe costly as well. For example, long distance marketing calls, which dueto the cost structure of Voice over IP have now become more feasible,are costly since, typically, cell-phone owners pay long distance chargesfor long distance calls received as well as placed.

There has been at least one attempt to devise a scheme for blockingunwanted calls. Specifically, an internet marketing brochure(http://www.hackcanada.com/canadian/phreaking/bcps1.html) discloses acall blocking service allowing the called party to divert up to twelvetelephone numbers of their choice to a special recording that tellscallers that the party they have reached has chosen not to take theircall at this time. Numbers on the list can be altered by the subscriberat any time. This attempt, however, has several limitations. First ofall, each subscriber's blocking list must be manually updated by eachsubscriber individually. Moreover, only a small number of callingnumbers can be blocked. Finally, the call is diverted to a voice mail,which verifies the existence of that phone number to the caller.Bypassing this scheme, therefore, is relatively straightforward: if theinitial attempt at placing an unwanted call is frustrated, the unwantedcaller simply has to repeat the call using a new originating number.Given the limited number of phone numbers that can be blocked, and themanual nature of updating these by each subscriber, after severalattempts, the caller is likely to reach most of the subscribers usingthis service. Moreover, according to this scheme, the caller's initialefforts are not altogether fruitless since even the diverted calls serveto verify the existence of a subscriber's phone number because of thevoice mail.

SUMMARY OF THE INVENTION

It is an object of the present invention to provide a novel system andmethod of managing communications policy settings in a wireless networkthat obviates or mitigates at least one of the above-identifieddisadvantages of the prior art.

According to an aspect of the invention, a method is provided forprocessing communications in a voice telephony network having aplurality of subscriber devices and a server; the method comprising thesteps of:

-   -   maintaining, at the server, a central communication policy        including at least one identifier representing whether reception        of a voice call having the at least one identifier is        permissible at the subscriber devices in the network;    -   maintaining, at each subscriber device, a local communication        policy; the local communication policy corresponding to the        central communication policy;    -   receiving a voice call at one of the subscriber devices; the        voice call having an originator identifier;    -   receiving a user-input at the subscriber device representing a        marker of the originator identifier;    -   accessing the local common policy at the subscriber device;    -   updating the local common policy with the originator identifier        associated with the marker, such that reception of a voice call        having the originator identifier is impermissible at the        subscriber device; and    -   updating the central common policy with the originator        identifier associated with the marker, such that reception of a        voice call having the originator identifier is impermissible at        the subscriber devices.

The updating of the central common policy can comprises the step of:

-   -   propagating said central common policy to said plurality of        subscriber devices such that said local communication policy at        each said plurality of subscriber devices is synchronized with        said central common policy.

This propagating step can be performed after the step of updating thecentral common policy. Alternatively, this propagating step can beperformed once over a given time period. The propagating step can alsobe performed after the steps of the above described method are performeda predetermined number of times.

The user-input can be received prior to the voice call being answered.The user-input can also be received after the voice call is answered.The originator identifier can be a Caller-ID string. The identifier inthe central communication policy can include a Caller-ID string.

Another aspect of the invention provides a method of managing acommunication policy in a voice telephony network having a plurality ofsubscriber devices. the method comprising the steps of:

-   -   maintaining a communication policy including at least one        identifier representing whether the reception of a voice call        having the identifier is permissible at the subscriber devices        in the network;    -   receiving a notice of a rejection of the voice call by one of        the subscriber devices;    -   the voice call having an originating identifier;    -   updating a record of rejections respective to the originating        identifier based on the notice; the record of rejections        including the subscriber device and the originating identifier;    -   updating the communication policy if the record of rejections        match a predefined criteria.

The record of rejections can represent a number of times calls have beenrejected from the identifier. The record of rejections can alsorepresent a number of different subscriber devices that have rejected acall from the identifier. The criteria can be above a predeterminedthreshold.

After the step of receiving, the method can further comprise the stepof:

-   -   receiving a second notice of rejection respective to said        originating identifier, after a passage of time from said        receiving of said record of rejection.

In this case, the criteria can be an extent of time. The updating of thecommunication policy can be performed such that the originatingidentifier is removed from the communication policy if the passage oftime is greater than the extent of time.

BRIEF DESCRIPTION OF THE DRAWINGS

The invention will now be described by way of example only, and withreference to the accompanying drawings, in which:

FIG. 1 is a block diagram of a system for managing a communicationpolicy in accordance with an embodiment of the invention;

FIG. 2 is a block diagram of the mobile subscriber device of FIG. 1;

FIG. 3 is a block diagram of certain internal components of a mobileelectronic device of FIG. 1;

FIG. 4 is a flowchart depicting a method of processing communications inaccordance with an embodiment of the invention;

FIG. 5 is a block diagram of a system for managing a communicationpolicy in accordance with another embodiment of the invention; and

FIG. 6 is a flowchart depicting a method of processing communications inaccordance with another embodiment of the invention;

FIG. 7 is a flowchart depicting a method of updating information inaccordance with an embodiment of the invention;

FIG. 8 is a flowchart depicting a method of updating information inaccordance with an embodiment of the invention;

FIG. 9 is a block diagram of a system for managing a communicationpolicy in accordance with another embodiment of the invention;

FIG. 10 is a flowchart depicting a method of updating information inaccordance with an embodiment of the invention;

FIG. 11 is a block diagram of a system for managing a communicationpolicy in accordance with another embodiment of the invention;

FIG. 12 is a representation of certain information being displayed ofthe mobile subscriber device of FIG. 9;

FIG. 13 is a block diagram of a system for managing a communicationpolicy in accordance with another embodiment of the invention;

FIG. 14 is a block diagram of a system for managing a communicationpolicy in accordance with another embodiment of the invention;

FIG. 15 is a block diagram of a system for managing a communicationpolicy in accordance with another embodiment of the invention;

FIG. 16 is a flowchart depicting a method of updating information inaccordance with an embodiment of the invention;

FIG. 17 is a block diagram of a system for managing a communicationpolicy in accordance with another embodiment of the invention;

FIG. 18 shows a flow-chart depicting a plurality of steps that can beused to perform one of the steps in the method depicted in FIG. 10;

FIG. 19 is a block diagram of a system for managing a communicationpolicy in accordance with another embodiment of the invention;

FIG. 20 is a block diagram of a system for managing a communicationpolicy in accordance with another embodiment of the invention;

FIG. 21 is a block diagram of a system for managing a communicationpolicy in accordance with another embodiment of the invention;

FIG. 22 is a block diagram of a system for managing a communicationpolicy in accordance with another embodiment of the invention; and

FIG. 23 is a flowchart depicting a method of updating information inaccordance with an embodiment of the invention.

DETAILED DESCRIPTION OF THE INVENTION

Referring now to FIG. 1, a wireless communication system in accordancewith a first embodiment of the invention is indicated generally at 30.System 30 comprises a plurality of base stations 34 operable towirelessly transmit across a variety of geographic ranges. Base stations34 communicate wirelessly over a plurality of links 38. In a presentembodiment, links 38 are based on a known voice-based wirelesstelecommunication such as Global System for Mobile Communications(“GSM”) or Advanced Mobile Phone System (“AMPS”).

In system 30, base stations 34 are also connected to a network 42through a connection 46. In this embodiment, network 42 is the publicswitched telephone network (“PSTN”) but, in other embodiments, othertypes of networks can be employed. Moreover, in this embodimentconnection 46 is a fibre-optic wire connection, but in other embodimentsconnection 46 can be other types of connections such as copper wires ora satellite connection.

System 30 also includes a plurality of subscriber devices. In thisembodiment, each subscriber device is a cell-phone 50 such as thosemanufactured by Nokia of Keilalahdentie 2-4, Finland and Motorola Inc.of Schaumburg, Ill., U.S.A. In other embodiments, subscriber devicescould have the functionality of a cell phone and other enhancedfunctions such as those manufactured by Research In Motion Limited ofWaterloo, Ontario, Canada, or by PalmOne, Inc. of Milpitas, Calif. USA.Cell-phones 50 are operable to connect to network 42 via a base station34's link 38 each time cell-phone 50 is located within a rangerespective to that base station 34. For example, whenever cell-phone 50₁ is located within the range of base station 34 ₁, cell-phone 50 ₁ canconnect to network 42 by linking with base station 34 ₁ through link 38₁, and whenever cell-phone 50 ₂ is located within the range of basestation 34 ₂, cell-phone 50 ₂ can connect to network 42 by linking withstation 34 ₂ through link 38 ₂. Cell-phones 50 can also communicate witheach other directly, without the need for a base station, through apeer-to-peer link 54. In this embodiment, a peer-to-peer link consistsof a peer-to-peer IEEE 801.11b/g connection employing voice over IPprotocol, but in other embodiments other types of peer-to-peerconnections such as infrared and cross-linked wired Ethernet connectionscould also be used. These and other types of peer-to-peer connectionsare within the scope of the invention.

System 30 also includes phones 58 connected to network 42 throughconnections 62. Phone 58 is operable to place and receive phone callsthrough network 42. In other embodiments, phones 58 could representmultiple phones being operated as a call center from which calls arebeing placed.

Each call originated by a device carries an originator identifier“(OID”), regardless of whether the call is placed through network 42, abase station 34, or through link 54 in a peer-to-peer mode. In thisembodiment, an OID is the phone number assigned to each originator phone58 or cell-phone 50. However, other types of identifiers such as thename under which a phone 58 is registered or a serial number assigned toa cell-phone by the manufacturer can also be used as OIDs, and suchvariations are within the scope of this invention.

Referring now to FIG. 2, cell-phone 50 is shown in greater detail.Cell-phone 50 is based on a computing environment with wireless voicetelephony capabilities. (However, it is to be understood that cell-phone50 can be based on the construction and functionality of any mobileelectronic device that can be connected to a wireless network as well.Such devices include personal digital assistants or laptops computersconnected to wireless networks. In a present embodiment, a cell-phone 50includes, a housing 66, which frames an LCD display 70, a speaker 74, amicrophone 78, scroll buttons 82, and a keyboard 86. It will beunderstood that housing 66, can be made from any suitable material aswill occur to those of skill in the art.)

Referring now to FIG. 3, a block diagram of certain internal componentswithin cell-phone 50 are shown. Cell-phone 50 is based on amicrocomputer that includes a processor 90. Processor 90 is connected toa read-only-memory (“ROM”) 94, which contains a plurality ofapplications executable by processor 90 that enables cell-phone 50 toperform certain functions. Processor 90 is also connected to a randomaccess memory unit (“RAM”) 98 and a persistent storage device 102 whichis responsible for various non-volatile storage functions of cell-phone50. Processor 90 can send output signals to various output devicesincluding display 70 and speaker 74. Processor 90 can also receive inputfrom various input devices including microphone 78 and keyboard 86.Processor 90 is also connected to a modem and radio 106. Modem and radio106 are operable to connect cell-phone 50 to wireless base stations 34in range of cell-phone 50, in the usual manner, via an antenna 114.

Referring back to FIG. 1, each cell-phone 50 maintains a common policy(“CP”) database 100, used for determining which received calls should beaccepted. CP database 100 is the same for all cell-phones 50. Table Ishows an example CP database 100 for cell-phones 50 right before anattempt is made, by phone 58 ₁, to place a call.

TABLE I Example CP Database 100 Field 1 OID 416 000-0002 647 000-0002

Describing Table I in greater detail, Field 1 contains the unique OIDassociated with a phone or a cell-phone. In this embodiment, asmentioned above, the OID is the phone number associated with a phone ora cell-phone. It is impermissible for cell-phones 50 to receive callsfrom phones or cell-phones listed in this table. For example, in thiscase, it is impermissible for cell-phones 50 to accept calls placed byphone 58 ₂ (which has an OID of 416 000-0002), or by cell-phone 50 ₂(which has an OID of 647 000-0002).

Referring to FIG. 4, a method for processing communications in a networkhaving CP database 100 is indicated generally at 400. In order to assistin the explanation of the method, it will be assumed that method 400 isoperated using system 30, and that, as shown in FIG. 1, cell-phone 50 ₁is located within range of base station 34 ₁, cell-phone 50 ₂ is locatedwithin in range of base station 34 ₂ and cell-phone 50 ₃ is locatedwithin peer-to-peer range of cell-phone 50 ₁. Furthermore, the followingdiscussion of method 400 will lead to further understanding of system 30and its various components. (However, it is to be understood that system30 and/or method 400 can be varied, and need not work exactly asdiscussed herein in conjunction with each other, and that suchvariations are within the scope of the present invention).

The current performance of method 400 is initiated by a call placed byphone 58 ₁. Referring back to FIG. 4, at step 410 a call is received.Step 410 can be performed, for example, by phone 58 ₁ dialling the phonenumber for cell-phone 50 ₁. Accordingly, an attempt is made, in theusual manner, to create a connection with cell-phone 50 ₁ through PSTNnetwork 42, and, with the aid of station 34 ₁, through link 38 ₁. In thepresent embodiment, the phone number of phone 58 ₁, 416 000-0001, isforwarded to cell-phone 50 ₁ as part of the attempt to establish aconnection. In other embodiments, other identifiers which uniquelyidentify the originator of a call in a phone network, such as the nameunder which a phone is registered, can also be used, and are within thescope of the invention.

Continuing with the example, at step 420 the common communication policyis accessed. In this example, step 420 is performed by accessing CPdatabase 100 maintained on cell-phone 50 ₁ itself, as described above.Method 400 then advances from step 420 to step 430, at which point adetermination is made as to whether the received communication ispermissible. In this example, CP database 100 is examined to determinewhether calls from 58 ₁ are permitted. To perform this step, CP database100 is accessed to determine whether the phone number of phone 58 ₁, theoriginator phone, is present in CP database 100. In this case, the phonenumber 416 000-0001 is not present in CP database 100 meaning thataccepting a phone call from phone 58 ₁ is permissible. Accordingly, step450 is performed next, and the call is accepted in the usual manner. Forexample, cell-phone 50 ₁'s ringer can be sounded if cell-phone 50 ₁ ison, or the call can be directed to a voice mail if cell-phone 50 ₁ isoff. These and other known manners of accepting a call are within thescope of the invention.

To further illustrate method 400, it is assumed that method 400 isperformed by system 30 a second time, but in this second performance,the phone call initiating the performance of method 400 originates fromphone 58 ₂. Accordingly, at step 410 the phone number 416 000-0002,which is associated with phone 58 ₂, is transmitted to cell-phone 50 ₁as part of the attempt to establish a connection with phone 50 ₁. Atstep 410, CP database 100 is accessed in substantially the same manneras the first performance of method 400. However, during the secondperformance of step 430, accessing CP database 100 reveals that phonenumber 416 000-0002 is present in CP database 100. Accordingly, step 440is performed next, rejecting the call placed by phone 58 ₂. Step 440 canbe performed in a variety of known ways. For example, the connection canbe dropped, a disconnected number message can be played, or the call canbe directed to a voice mail informing the originator that calls placedby them cannot be accepted. These and other known manners of rejecting acall are all within the scope of the invention.

In another embodiment, method 400 can be performed when the calloriginates from the same network that the receiving cell-phone 50 ₁ islocated on, which is in contrast to the first two example performancesof method 400 where the call originated on a different network. Toillustrate this embodiment, an example is used where the originator isanother cell-phone, cell-phone 50 ₂ in FIG. 1. Accordingly, whencell-phone 50 ₂ attempts to place a call to cell-phone 50 ₁, method 400is performed in substantially the same manner as the last two exampleperformances. Specifically, the performance of the first two steps leadsto the reception of cell-phone 50 ₂'s phone number, 647 000-0002, bycell-phone 50 ₁, and the accessing of CP database 100. When step 430 isperformed, a search of CP database 100 reveals that 647 000-0002 iscontained within CP database 100 leading to the performance of step 440,namely the rejection of the call.

Although in the previous embodiments the voice call is received from aPSTN and a cellular phone network, in other embodiments, method 400 canalso be performed using other types of connections such as peer-to-peerlinks; all these embodiments are within the scope of the invention. Forexample, method 400 can be performed when a voice communication isattempted between two cell-phones through a peer-to-peer link. Toillustrate this embodiment, consider the example shown in FIG. 1 wherecell-phone 50 ₃ attempts to establish voice communications with 50 ₁through a peer-to-peer link 54. Accordingly, at step 410, as in theprevious three example performances of method 400, the phone numberassociated with cell-phone 50 ₃ (647 000-0003), is transmitted tocell-phone 50 ₁ as part of an attempt to establish a connection withphone 50 ₁. After CP database 100 is accessed at step 420, and examinedat step 430, it is found that 647 000-0003 is not in database 100, andhence, determined that receiving the voice communication from cell-phone50 ₃ is permissible. Thus, method 400 advances to step 450 and the voicecommunication is accepted by cell-phone 50 ₃ in the usual manner.

Referring now to FIG. 5, a wireless communication system in accordancewith another embodiment of the invention is indicated generally at 30 a.System 30 a is substantially the same as system 30, and like elements insystem 30 a bear the same reference as like elements in system 30,except followed by the suffix “a”. System 30 a differs from system 30 inthat in system 30 a each cell-phone 50 a maintains an override policy(“OP”) database 100 a unique to that cell-phone 50 a. In the presentexample, OP database 110 a is an opt-out policy database used fordetermining whether, for a given call, the common policy contained in CPdatabase 100 should be opted out of.

Referring back to FIG. 5, each cell-phone 50 a maintains two policies,one in OP database 110 a, and the other in CP database 100 a. An exampleCP database 100 a is shown above in Table I. Table II shows an exampleOP database 110 a ₁ for cell-phone 50 a ₁ right before an attempt ismade, by phone 58 a ₂, to place a call.

TABLE II Example CP Database 110 for 50a₁ Field 1 OID 647 000-0002

Describing Table II in greater detail, Field 1 contains the unique OIDassociated with a phone 58 a or a cell-phone 50 a. In this embodiment,as mentioned above, the OID is the phone number associated with a phone58 a or a cell-phone 50 a. If a phone 58 a or cell-phone 50 a isidentified in OP database 110 a, the common policy represented by CPdatabase 100 a is ignored for that device. For example, although,according to common policy 100 a, as shown in Table I, it isimpermissible for cell-phones 50 a to accept calls placed by phone 58 ₂(which has an OID of 416 000-0002), the same OID is also listed in OPdatabase 110 a ₁, overriding CP database 100 a and making the receptionof calls from phone 58 ₂ permissible for cell-phone 50 a ₁.

Referring to FIG. 6, a method for processing communications in a networkhaving CP database 100 a and OP databases 110 a is indicated generallyat 600. In order to assist in the explanation of the method, it will beassumed that method 600 is operated using system 30 a. Furthermore, thefollowing discussion of method 600 will lead to further understanding ofsystem 30 a and its various components. (However, it is to be understoodthat system 30 a and/or method 600 can be varied, and need not workexactly as discussed herein in conjunction with each other, and thatsuch variations are within the scope of the present invention).

Similar to the second example performance of method 400 using system 30,the current performance of method 600 is initiated by a call placed byphone 58 a ₂. Accordingly, the performance of steps 610 and 620 resultin the reception of phone 58 a ₂'s associated phone number and theaccessing of CP database 100 a. Continuing with the example, at step630, the override policy is accessed. In this example, step 630 isperformed by accessing OP database 110 a ₁ maintained on cell-phone 50 a₁ itself. Method 600 then advances from step 630 to step 640, at whichpoint a determination is made as to whether the received voice call ispermissible. In this example, CP database 100 a is examined to determinewhether calls from 58 a ₂ are permitted. To perform this step, database100 a is accessed to determine whether the phone number of phone 58 a ₂,the originator phone, is present database 100 a. In this case, the phonenumber 416 000-0002 is present in database 100 a meaning that acceptinga phone call from phone 58 a ₂ is not permissible. Accordingly, step 650is performed next.

At step 650, a determination is made whether to alter the permissibilityof the call. In this example, OP database 110 a is examined to determinewhether the common policy for 58 a ₂ should be ignored. To perform thisstep, database 110 a is examined to determine whether the phone numberof phone 58 a ₂, the originator phone, is present database 110 a. Inthis case, the phone number 416 000-0002 is present in CP database 110a, meaning that the common policy should be ignored, altering thepermissibility determined at step 640 to make a phone call from phone 58a ₂ permissible. Accordingly, step 680 is performed next.

At step 680 the call is accepted in the usual manner. For example,cell-phone 50 ₁'s ringer can be sounded if cell-phone 50 ₁ is on, or thecall can be directed to a voice mail if cell-phone 50 ₁ is off. Theseand other known manners of accepting a call are within the scope of theinvention.

In another embodiment, OP database 110 a can represent an opt-in policyused for determining whether, for a given call, the common policycontained in CP database 100 a should be followed. For example,according to common policy 100 a, as shown in Table I, it isimpermissible for cell-phones 50 a to accept calls placed by phone 58 ₂(which has an OID of 416 000-0002). The same OID is also listed in OPdatabase 110 a ₁, opting in to the policy contained in CP database 100 aand making the reception of calls from phone 58 ₂ impermissible forcell-phone 50 a ₁.

Referring back to FIG. 6, a second example performance of method 600will be used to illustrate an embodiment of method 600 where OP database110 a represents an opt-in policy. As in the first Performance of method600 where OP database 110 a represents an opt-out policy, it is assumedthat this performance of method 600 is initiated by call placed by phone58 a ₂. It should be noted that the performance of method 600,regardless of the type of policy represented by OP database 110 a, isthe same except for the determination of whether to alter permissibilityat steps 650 and 670. Accordingly, the performance of steps 610 through630 according to this embodiment results in the reception of phone 58 a₂'s associated phone number, the accessing of CP database 100 a, and theOP database 100 a ₁.

Method 600 then advances from step 630 to step 640, at which point adetermination is made as to whether the received voice call ispermissible. In this example, similar to the first performance of method600, CP database 110 a is examined to determine that calls from 58 a ₂are not permissible. Accordingly, step 650 is performed next.

At step 640, a determination is made whether to alter the permissibilityof the call. In this example, OP database 110 a is examined to determinewhether the common policy for 58 a ₂ should be followed. To perform thisstep, database 110 a is searched to determine whether the phone numberof phone 58 a ₂, the originator phone, is present in database 110 a;only if OP database 110 a also contains the phone number of phone 58 a₂, will the common policy making a call from phone 58 a ₂ impermissiblebe enforced. In this case, phone number 416 000-0002 is present in CPdatabase 110 a, meaning that the common policy should be followed,requiring no alterations to the permissibility determined at step 640.Accordingly, step 680 is performed next.

At step 680 the call is rejected. Specifically, the call placed by phone58 ₂ is rejected. Step 680 can be performed in a variety of known ways.For example, the connection can be dropped, or the call can be directedto a voice mail informing the originator that calls placed by themcannot be accepted. These and other known manners of rejecting a callare all within the scope of the invention.

As with method 400, in other embodiments, method 600 can be performedwhen the call originates from the same network that the receivingcell-phone 50 ₁ is located on. Moreover, in yet other embodiments,method 600 can also be performed using other types of connections suchas peer-to-peer links. All these embodiments are within the scope of theinvention.

Referring to FIG. 7, a method for updating a common communication policyfor a network having a plurality of cell-phones is indicated generallyat 700. In order to assist in the explanation of the method, it will beassumed that method 700 is operated using system 30, and that, as shownin FIG. 1, cell-phone 50 ₁ is located within range of base station 34 ₁,cell-phone 50 ₂ is located within in range of base station 34 ₂ andcell-phone 50 ₃ is located within peer-to-peer range of cell-phone 50 ₁.In addition, it is assumed that, immediately prior to the performance ofMethod 700, CP database 100's contents are as shown in Table I above.Furthermore, the following discussion of method 700 will lead to furtherunderstanding of system 30 and its various components. (However, it isto be understood that system 30 and/or method 700 can be varied, andneed not work exactly as discussed herein in conjunction with eachother, and that such variations are within the scope of the presentinvention).

The current performance of method 700 is initiated by a call placed byphone 58 ₁. Referring back to FIG. 7, at step 710 a call is received.Step 710 can be performed, for example, by phone 58 ₁ dialling the phonenumber for cell-phone 50 ₁. Accordingly, an attempt is made, in theusual manner, to create a connection with cell-phone 50 ₁, through PSTNnetwork 42, and, with the aid of station 34 ₁, through link 38 ₁. In thepresent embodiment, the phone number of phone 58 ₁, 416 000-0001, isforwarded to cell-phone 50 ₁ as part of the attempt to establish aconnection. In other embodiments, other identifiers which uniquelyidentify the originator of a call in a phone network, such as the nameunder which a phone is registered, can also be used, and are within thescope of the invention.

Continuing with the example, at step 720 the phone number received atstep 710 is marked. In this example, the number associated with phone 58₁, 416 000-0001 is marked. Method 700 then advances from step 720 tostep 730 where the common communication policy is accessed. In thisexample, step 730 is performed by accessing CP database 100 maintainedon cell-phone 50 ₁.

Next, at step 740 the common policy is updated with the markedidentifier. In this example, CP database 100 is first examined todetermine whether the marked number of phone 58 ₁, the originator phone,is present in CP database 100. In this case, the phone number 416000-0001 is not present in CP database 100 meaning that accepting aphone call from phone 58 ₁ is permissible. Accordingly, CP database 100is updated by inserting the marked number 416 000-0001 such that callsfrom phone 58 ₁ are now impermissible according to CP database 100. Itshould apparent to those skilled in the art that the steps of accessingand updating should not be construed in the limiting sense, and that inother embodiments the two steps could be combined to form one step.

In another embodiment of the invention, as shown in FIG. 5 and discussedabove, individual cell-phones can maintain override policies foroverriding a policy common to all cell-phones. Referring to FIG. 8, amethod for updating an override policy for an individual cell-phonewhich is part of a network having a common communication policy isindicated generally at 800. In order to assist in the explanation of themethod, it will be assumed that method 800 is operated using system 30a. In addition, it is assumed that, immediately prior to the performanceof Method 800, CP database 100 a's contents are as shown above in Table1, and OP database 110 a's contents are as shown above in Table II.Furthermore, the following discussion of method 800 will lead to furtherunderstanding of system 30 a and its various components. (However, it isto be understood that system 30 a and/or method 600 can be varied, andneed not work exactly as discussed herein in conjunction with eachother, and that such variations are within the scope of the presentinvention).

Referring back to FIG. 8, at step 810 a common communication policy isaccessed. In this example, step 810 is performed on cell-phone 50 a ₁ byaccessing CP database 100 a maintained on cell-phone 50 a ₁.

Next, at step 820 one or more identifiers are selected. In this example,the identifier CP database 100 a is first examined to identify thenumbers it contains, and following that, 416 000-0002, one of the phonenumbers present in CP database 100 a, is selected from the list ofnumbers first identified. Next, at step 830, the override policy isaccessed. In this example, step 830 is performed by accessing OPdatabase 110 a maintained on cell-phone 50 a ₁.

Next, at step 840, the override database is updated. In this case, OPdatabase 110 a is updated by inserting the selected number 416 000-0002.In one embodiment, the override policy is an opt-out policy.Accordingly, by updating the OP database in step 840 to include 416000-0002 cell-phone 50 a ₁ ignores the common policy, and makes callsfrom phone 58 a ₂ permissible. In another embodiment, the overridepolicy can be an opt-in policy. Accordingly, by updating the OP databasein step 840 to include 416 000-0002 cell-phone 50 a ₁ follows the commonpolicy, and in accordance with the common policy, receiving calls fromphone 58 a ₂ becomes impermissible.

Referring now to FIG. 9, a wireless communication system in accordancewith another embodiment of the invention is indicated generally at 30 b.System 30 b is substantially the same as system 30, and like elements insystem 30 b bear the same reference as like elements in system 30,except followed by the suffix “b”. System 30 b also shows a policyserver 104 b which maintains a central, up-to-date copy of CP database100 a. Policy server 104 b is thus connected to network 42 b and istherefore accessible to all phones 50 b and base stations 34 b withinsystem 30 b. Thus, as CP database 100 b is updated, it is centrallymaintained by server 104 b and such updates can be periodically pushedto (or pulled by) all phones 50 b. Also, as new, additional phones 50 bare provisioned in system 30 b, the latest version of CP database 100 bcan be stored on those new phones 50 b by obtaining a copy of CPdatabase 100 b from server 104 b. Methods and means for propagatingupdates to CP database 100 b from server 104 b to all phones 50 b arenot particularly limited. Likewise, method and means for providing thatCP database 100 b is synchronized in all locations is not particularlylimited.

Referring now to FIG. 10, a method of updating a communication policy inaccordance with another embodiment of invention represented as aflow-chart and indicated generally at 1000. Method 1000 can be performedusing system 30 b, as an example. Before discussing this example, itwill be assumed that, prior to the performance of method 1000, allcopies of CP database 100 b are initially empty, as shown in accordingto Table III.

TABLE III Example CP Database 100b Field 1 OID (Empty)

Beginning first at step 1010, a call is received. In this example, itwill be assumed that a call is initiated from phone 58 b ₁ which isdirected to cell-phone 50 b ₁. This step is represented in FIG. 11, as acall initiated from phone 58 b ₁ and directed to cell-phone 50 b ₁ isindicated at 108 b. Step 1010 occurs in the usual manner.

Next, at step 1020, a request is received to mark the call isimpermissible. In this example, the request is received from the useroperating cell-phone 50 b ₁. For example, the user operating cell-phone50 b ₁ can be presented with the information as displayed in FIG. 12,whereby the user is informed that s/he can press the “*” key on thephone in order to mark that future calls from the caller (i.e. fromphone 58 b ₁) as impermissible. Step 1020 can be performed either whilecall 108 b is in progress, or simply while call 108 b is incoming buthas not been answered. Thus, in this example, it will be assumed thatthe user operating cell-phone 50 b ₁ actually depresses the “*” key atthis step, thereby completing step 1020. (Concurrently with depressionof the “*” key, it can be desired to have cell-phone 50 b ₁automatically drop call 108 b.)

Method 1000 then advances from step 1020 to step 1030 where the commoncommunication policy is accessed. In this example, step 1030 isperformed by processor 90 of cell-phone 50 b ₁ accessing CP database 100b stored in persistent storage 102 maintained on cell-phone 50 b ₁.

Next, at step 1040, the local copy of the common policy is updated withthe marked identifier. In this example, CP database 100 b is firstexamined to determine whether the marked number of phone 58 b ₁, theoriginator phone. Processor 90 of cell-phone 50 b ₁ updates the localcopy of CP database 100 by inserting the marked number 416 000-0001 suchthat calls from phone 58 b ₁ are now impermissible according to thelocal copy of CP database 100 b. Performance of step 1040 is representedin FIG. 13, as the local copy of CP database 100 b is now shown asupdated and indicated at 100 b′. Likewise, in Table IV, the contents ofCP database 100 b′ are shown.

TABLE IV Example CP Database 100b’ Field 1 OID 416 000-0001

Next, at step 1050, the central copy of the common policy is updated.This step is performed by cell-phone 50 b ₁ which will send a copy of CPDatabase 100 b′ to policy server 104 b. Step 1050 is represented in FIG.14, as cell-phone 50 b ₁ sends a copy of CP Database 100 b′ to policyserver 104 b via pathway 112 b, such that CP Database 100 b′ is nowstored at policy server 104 b.

At this point, method 1000 ends. The updated CP Database 100 b′ atserver 104 b can now be processed in any desired manner, such as causingCP Database 100 b′ to be propagated to all cell-phones 50 b in system 30b. Such a global update or synchronization can be effected in anydesired manner, and is represented in FIG. 15. Having so propagated CPDatabase 100 b′ to all cell-phones 50 b, now incoming calls from phone58 b ₁ will not be permitted at any of cell-phones 50 b.

Referring now to FIG. 16, a method for updating a communication policyis indicated at 1600. Method 1600 is typically implemented on a systemsuch as system 30 b that has a policy server such as policy server 104b. Method 1600 relies first on the performance of method 400 on anycell-phone 50 b in system 50 b, which, after it rejects the call at step440, sends a notice of the call rejection to policy server 104 b. Thus,at step 1610 policy server 104 b will first receive notice of the factthat a call rejection has occurred at cell-phone 50 b. Next, at step1620, an update to the record of call rejections will be made. Step 1620is typically performed by policy server 104 b, which will compilerecords about call-rejections in any desired manner. Policy server 104 bcan tabulate the number of times calls have been rejected from aparticular number over a certain time period; and/or track the number ofdifferent cell-phones 50 b which have rejected calls from a particularnumber. Where such rejections are statistically significant, then commonpolicy 100 b can be updated or maintained accordingly. For example, along period without rejections may cause server 104 b to remove aparticular number from the common policy 100 b, thereby making callsfrom such numbers once again permissible. In contrast, a large volume ofrejections from a particular number may be used to determine that aparticular number should remain as impermissible according to commonpolicy 100 b.

Referring now to FIG. 17, a wireless communication system in accordancewith another embodiment of the invention is indicated generally at 30 c.System 30 c is substantially the same as system 30 b, and like elementsin system 30 c bear the same reference as like elements in system 30 b,except followed by the suffix “c” instead of the suffix “b”. System 30 calso includes a trust policy (TP) database 120 c maintained on policyserver 104 c. TP database 120 c includes indicators representing trustlevels associated with phones 50 c regarding allowability of changes toCP database 100 c based on updates received from those phones 50 c. Moreparticularly, trust level indicators are used for generating amodification procedure to be performed when an updated local copy of CP100 c is received from a phone 50 c. For example, in one embodiment,only updates from phones 50 c with a high trust level indicator can beallowed to automatically propagate throughout the network. Requests fromphones 50 c with a lower trust level indicator can be held forexamination by the operators of the network, or simply discarded. Atthis point it will be apparent to those skilled in the art that methodsand means for requesting updates to CP database 100 c are notparticularly limited. For example, in place of sending an updated localcopy of CP database 100 c, which is treated as a request for update, auser of cell-phone 50 c can simply forward a number to server 104 c bypressing a key such as the pound (“#”) key while receiving a phone call.These, and other such methods of sending requests for updates fromcell-phone 50 c to server 104 c are within the scope of the invention.

By having a method for examining suggested updates, system 30 c isprovided with, amongst other things, a mechanism against to reduce abuseof the communication policy abuse. For example, without such amechanism, to unblock phone numbers at a network, a spam operator couldacquire a cell-phone operated at that network. By deleting the blockednumbers from the copy of the communications policy associated with theacquired phone, communication from those numbers would, once again,become permissible throughout the entire network. By associating trustlevel indicators with phones 50 c, such abuse can be reduced. Forexample, depending on the level of trust placed on phone 50 c from whichthe update is received, an update from a phone 50 c can be treated as analert to the administrator of server 104 c, notifying the administratorthat the update should be reviewed to determine whether it merits beingdistributed propagated to the rest of the network as a change to CPdatabase 100 c. Alternatively, the trust level indicator associated witha phone 50 c may cause an update request received from that phone to betreated as a ‘vote’ to update the request, but such a vote would not bedeterminative of whether an actual change to database 100 c is effectedin accordance with that vote. Accordingly, central CP database 100 c canbe updated, for example, when a predetermined number of votes isreceived from a predetermined number of phones 50 c.

Table V shows an example TP database 120 c maintained on server 104 c.

TABLE V Example TP Database 120c Field 2 Field 1 Trust Level OIDIndicator 647 000-0001 90% 647 000-0002 30% 647 000-0003 10%

Describing Table V in greater detail, Field 1 contains the unique OIDassociated with a cell-phone. In this embodiment, as mentioned above,the OID is the phone number associated with a cell-phone 50 c. Field 2contains the trust level indicator associated with each phone listed inField 1. In the present embodiment, the trust level indicator takes theform of a percentage, 100% referring to the highest trust and 0%referring to the lowest trust. In other embodiments other trustindicators such as a numerical ordering between 1 to 10 can also be usedand the use of such indicators are within the scope of the invention.

As mentioned above, the trust indicators are utilized in generating amodification-procedure, in response to requests from phones 50 c, forupdating CP database 100 c. In this embodiment, it will be assumed thatwhen an update request is received from a phone 50 c with a trust levelindicator greater than about 80%, the modification procedure is toautomatically update the contents of central copy of CP 100 c, inaccordance with the request. It will be further assumed that any updatesreceived from a phone 50 c with a trust level indicator between about of20% or above, and up to and including and about 80%, then themodification procedure is to generate an alert for subsequentexamination. Finally, it will be assumed that any update requestreceived from a phone 50 c with a trust level below about 20% willresult in a modification procedure that counts classifies the receivedrequest as vote for changes specified in that request. Accordingly,referring back to Table V, in this example, any updates received fromphone 50 c ₁ (which has an OID of 647 000-0001) will be automaticallyincorporated into the central copy of CP 100 c maintained on server 104c. On the other hand, any updates received from cell-phone 50 c ₂ (whichhas an OID of 647 000-0002) will result in an alert for theadministrator of server 104 c to review the requested changes. Finally,any updates received from cell-phone 50 c ₃ (which has an OID of 647000-0003) will be counted as a vote towards a possible future update.

Another embodiment of the invention includes a method to update acommunication policy in accordance with a trust policy. The method inaccordance with this embodiment can be based on method 1000 of FIG. 10,except using method 1800 in FIG. 18 to perform step 1050 of method 100.This modified version of method 1000 (ie. using method 1800 as step1050) can be performed by system 30 c. Method 1800 incorporates the useof the trust policy, TP database 120 c. In order to illustrate the useof a trust policy in updating a communications policy, the followingexample performance of method 1800 will focus on the multiple stepsshown in FIG. 18. Accordingly, it will be assumed that the performanceof steps 1010 through 1040 proceed in a similar manner to the initialexemplary performance of method 1000 described above. Thus, prior todiscussing this exemplary performance, it is assumed that all copies ofCP database 100 c are empty. The empty CP database 100 c is shown inTable VI.

TABLE VI Example CP Database 100c Field 1 OID (Empty)

Referring back to FIG. 10 and proceeding with the current example,beginning at step 1010, a call is received. It is assumed that a call isinitiated from phone 58 c ₁ which is directed to cell-phone 50 c ₁.Next, at step 1020, a request is received to mark the call asimpermissible. The request is received from the user operatingcell-phone 50 c ₁. At step 1030, the common communication policy isaccessed. In this example, step 1030 is performed by processor 90 ofcell-phone 50 c ₁ accessing CP database 100 c stored in persistentstorage 102 maintained on cell-phone 50 c ₁. Next, at step 1040, thelocal copy of the common policy is updated with the marked identifier.In this example, CP database 100 c is first examined to determinewhether the marked number of phone 58 c ₁, the originator phone isalready present in CP database 100 c. Having determined that the numberis not in CP database 100 c, processor 90 of cell-phone 50 c ₁ updatesthe local copy of CP database 100 c by inserting the marked number 416000-0001 such that calls from phone 58 c ₁ are now impermissibleaccording to the local copy of CP database 100 b. Accordingly, as shownin FIG. 19, the performance of steps 1010 to 1040 using system 30 cresults in phone 50 c ₁ having an updated local copy of COP database 100c indicated at 100 c′. This result is in agreement with the initialexample performance of method 1000. Table VII shows the contents of CPdatabase 100 c′.

TABLE VII Example CP Database 100c’ Field 1 OID 416 000-0001

Referring now to FIG. 18, the example continues with the performance ofthe steps in method 1800 in order to implement step 1050 of method 1000s. Beginning at step 1851, a request for update is received. In thisexample, it is assumed that the request is received in the form of anupdated CP database 100 c. Step 1851 is performed by policy server 104 creceiving a copy of CP Database 100 c′ from cell-phone 50 c ₁. Moreover,policy server 104 c receives the phone number associated with cell-phone50 c ₁, 647 000-0001. Performance of step 1851 is represented in FIG. 20as cell-phone 50 c ₁ sending a copy of CP Database 100′ to policy server104 c via pathway 112 c, such that CP Database 100 c′ is now stored atpolicy server 104 c.

Next, at step 1852, the trust policy is accessed. In this example, step1852 is performed by server 104 c accessing TP database 120 c. Method1800 then advances from step 1852 to step 1853 where the trust level isretrieved. Specifically, in this example, TP database 100 c is examinedto determine the trust level associated with phone 50 c ₁. To performthis step, TP database 120 c is searched to determine whether the phonenumber of phone 50 c ₁ (the phone requesting the change) is present inTP database 120 c. In this case, as is shown in Table V, the phonenumber 647 000-0001 is present in TP database 120 c. Moreover, accordingto TP database 120 c, the trust level associated with 50 c ₁ is 90%.Accordingly, since the indicator is above 80%, the modificationprocedure generated is to automatically update the contents of centralcopy of CP 100 c, in accordance with the request. Accordingly, thecentral copy of the common policy is updated. This step is performed byserver 104 b by replacing CP Database 100 c with the received CPDatabase 100 c′. At this point method 1800 ends. The updated CP Database100 c′ at server 104 c can now be processed in any desired manner, suchas propagating CP Database 100 c′ to all cell-phones 50 c in system 30c. Such a global update, as shown in FIG. 21, can be effected in anydesired manner. Having so propagated CP Database 100 c′ to allcell-phones 50 c, now incoming calls from phone 58 c ₁ will not bepermitted at any of cell-phones 50 c.

At this point it will be apparent to those skilled in the art that inother performances of method 1800 with system 30 c, themodification-procedure generated at step 1854 will be selected inaccordance with the trust level indicator of phone 50 c sending therequest for update. For example, in this embodiment, if the trust levelindicator associated with phone 50 c originating the update request isbetween about 20% and about 80%, then the modification procedure is thegeneration of an alert for subsequent examination of the request. Thus,in this case, the central copy of the common policy is not updated, butrather, as shown in FIG. 22, the updated local copy is kept on server104 c to be examined at a later time by its operator or systemadministrator or the like. The operator can subsequently decide that theupdate merits distributing to the rest of phones 50 c on the network andmanually effect the changes to CP database 100 c so that it reflects thechanges in CP database 100 c′.

Alternatively, if the trust level indicator associated with the phoneoriginating the update request is below about 20%, themodification-procedure generated at step 1854 is to count the receivedrequest as vote for changes specified in that request. The central copyof the common policy is not updated, but rather, the updated local copyis kept on server 104 c to be tallied with other similar requests. Thechange may then be distributed to the rest of the phones on the networkif sufficient votes are received in favour of the same changes.

It will now be apparent to those skilled in the art that in differentembodiments, different threshold ranges can be used for determining thelevel of trust necessary for performing one of the above mentionedoperations. Furthermore, it will also be apparent that themodification-procedures specified above are not the only possibleoperations for handling update requests and that in other embodiments,different procedures for dealing with change requests, such asautomatically deleting the request, can also be used.

In other embodiments, server 104 c can maintain a table associating arange of trust values with a link to a particular operation to beperformed, such as a link to a subroutine or a module that is to performthat function. The implementation of the table of operations is not tobe limited to any particular manner. The table can be implemented basedon variety of data-structures including a database, a linked list, atree, or as any other suitable data structure.

Referring now to FIG. 23, a method for updating a trust policy isindicated at 2300. Method 2300 is typically implemented on a system suchas system 30 c that has a policy server such as policy server 104 c.Method 2300 relies first on the performance of method 1800 on system 30c, whereby a request for change is received from a phone 50 c andmanaged with in accordance with the trust level indicator associatedwith that phone 50 c. Accordingly, in this example, it will be assumedthat prior to the performance of method 1800, CP database 100 c is emptyas shown in Table VI, that the TP database 120 c has the contents shownin Table V, and that the request for change has been placed by phone 50c ₁. Accordingly, at the conclusion of the performance of method 1800,the modification procedure will be selected to automatically update thecontents of central copy of CP 100 c, in accordance with the request.Thus, it is assumed that CP database 100 c′ now has the contents shownin Table VII and that the system 30 c now has CP database 100 c′distributed as shown in FIG. 21.

Referring back to FIG. 23, at step 2310 a determination is made as towhether the communication policy is subject to change. In thisembodiment, this determination is based on the potential outcome of themodification procedure generated during the exemplary performance ofmethod 1800. Since, in the earlier-discussed example, the modificationprocedure generated was to automatically update CP database 100 c, thenthe determination is that the communication policy is subject tomodification.

Next, at step 2320, the trust policy is updated. Specifically, the trustlevel indicator associated with phone 50 c that has originated theupdate request is updated according to the outcome of the determinationmade at step 2310. More particularly, in this embodiment, the trustpolicy is updated according to the following equation if the outcome ofthe determination is positive (i.e. the communication policy is subjectto change):

$\begin{matrix}{{TrustLevelIndicator}_{new} = {{{TrustLevelIndicator}_{current} \times \frac{n - 1}{n}} + \frac{1}{n}}} & {{Equation}\mspace{14mu} I}\end{matrix}$

Where:

-   -   TrustLevelIndicator_(new) is the new trust level indicator,        expressed as a percentage, that will be stored in TP Database        120 c upon performance of step 2320;    -   TrustLevelIndicator_(current) is the current trust level        indicator, expressed as a percentage, that is currently stored        in TP Database 120 c prior to the performance of step 2320;    -   n is an adjustment factor that is any value greater than one.

On the other hand, if the outcome of the determination is negative (i.e.communication policy is not subject to change) the trust policy isupdated according to the following equation:

$\begin{matrix}{{TrustLevelIndicator}_{new} = {{TrustLevelIndicator}_{current} \times \frac{n - 1}{n}}} & {{Equation}\mspace{14mu}{II}}\end{matrix}$

Where:

-   -   TrustLevelIndicator_(new) is the new trust level indicator,        expressed as a percentage, that will be stored in TP Database        120 c upon performance of step 2320;    -   TrustLevelIndicator_(current) is the current trust level        indicator, expressed as a percentage, that is currently stored        in TP Database 120 c prior to the performance of step 2320;    -   n is an adjustment factor that is any value greater than one.

(The variables in Equation II have the same meaning as the variables inEquation I.)

Thus, between Equation I and Equation II, it is possible for a trustlevel indication to have any value between zero and one-hundred-percent,and to be adjusted according to one of those Equations.

Continuing with the previous example, assume that n equals eight. Alsorecall that in the previous example, the outcome, as determined at step2310 is positive. Thus, Equation I is applicable to the performance ofstep 2320. Assuming n equals eight, and recalling that the current TrustLevel Indicator for phone 50 c was 90%, then, Accordingly, the trustlevel indicator associated with phone 50 c ₁ is updated according toEquation I, as shown in Equation III.

$\begin{matrix}\begin{matrix}{{TrustLevelIndicator}_{new} = {{TrustLevelIndicator}_{current} \times}} \\{\frac{8 - 1}{n} + \frac{1}{8}} \\{= {{90\% \times \frac{7}{100}} + \frac{1}{8}}} \\{= {91.25\;\%}}\end{matrix} & {{Equation}\mspace{14mu}{III}}\end{matrix}$

Accordingly, the value 91.25% will now be stored in association withphone 50 c ₁ in TP Database 120 c. At this point method 2300 ends.

It will now be apparent to those skilled in the art that in otherperformances of method 2300, the trust indicator associated with phone50 c can result in modification, procedure that either alerts theoperator to the update request, or counts the update request as a vote.Under these circumstances, it is not possible to determine, immediatelyupon the receipt of the request by server 104 c, whether thecommunication policy is subject to change. Accordingly, the performanceof step 2310 can wait for a predetermined period of time before actuallymodifying the trust policy stored in TP Database 120 c, in accordancewith the modification procedure. For example, if the modificationprocedure is to generate an alert, step 2310 can also generate an alertto the operator of server 104 c that method 2300 should pause pendingthe determination by the operator as to whether to update thecommunication policy in accordance with the alert. Once the operator hasmade this determination, then method 2300 can be resumed. If theoperator decided to update the communication policy according to therequest, then step 2320 can be performed as to increase the trustindicator associated with the requester; but if the operator decided NOTto update the communication policy according the request, then step 2320can be performed so as to decrease the trust indicator.

Similarly, if the modification procedure is to simply count the requestas a vote, then method 2300 can be paused until a sufficient time periodhas passed in which to assess whether a threshold number of votes havebeen received. If sufficient votes are received then the communicationpolicy can be updated accordingly, and likewise, method 2300 can beresumed to perform step 2320 and thereby decide to increase the trustindicator associated with the requestor. Conversely, if sufficient votesare NOT received to justify modification of the communication policy,then method 2300 can be resumed to perform step 2320 and therebydecrease the trust indicator associated with the requester.

In still other embodiments of method 2300, trust policy can be updatedusing different operations. For example, server 104 c can maintain twocounters, one for the number of requests performed by a particular phone50 c (request counter), and another for the number of such requests thatsuccessfully lead to (or can lead to) modification of central CPdatabase 100 (success counter). In this embodiment, trust levelindicator associated with a phone 50 c is the percentage ratio of thesuccess counter to the request counter. Accordingly, during theperformance of step 2320, the two counters would be updated byincreasing the request counter by one, and either increasing the successcounter by one, if the determination at step 2310 is positive, orleaving it unchanged, if the determination is negative. The trust levelindicator associated with that phone would be updated accordingly.

It should now be understood that system 30, 30 a, 30 b and 30 c can beeffected in various different manners according to securityconsiderations. For example, while not required, it can be desired tomaintain TP database 120 c in a separate server (i.e. other than server104 c) from CP database 100 c, so that that TP database 120 c is keptsecure, while CP database 100 c remains open and accessible to phones 50c. Alternatively, server 104 c can be implemented in a distributedmanner, across a number of other servers and computing devices, and assuch the term server need not be construed in a limiting sense.

While only specific combinations of the various features and componentsof the present invention have been discussed herein, it will be apparentto those of skill in the art that subsets of the disclosed features andcomponents and/or alternative combinations of these features andcomponents can be utilized, as desired. For example, although GSM andAMPS are wireless communication protocols that are contemplated, itshould now be apparent that other wireless communication methods such asthe Code Division Multiple Access (“CDMA”) for digital connections andthe Total Access Communication System (“TACS”) for analog connectionsare all within the scope of the invention. Other protocols includeGeneral Packet Radio Service (“GPRS”), and Orthogonal Frequency DivisionMultiplexing (“OFDM”), amongst others. In another variation, wirednetwork of subscriber devices such as PSTN can also be used.

In a further variation, yet other communication methods such as Ethernetand Voice over Internet Protocol (VoIP) could also be used. Moreover,identifiers other than phone numbers and serial numbers can also beused. For example, when employing Ethernet communications, the InternetProtocol (IP) address assigned to each device can be used as anidentifier. Alternatively Media Access Control (MAC) address of eachdevice could also be used. In yet other variations, policies could beapplied to a group of devices by using an identifier that representsthat group of devices. For example, when using IP addresses asidentifiers, only the first 24 bits of an IP address could be used toidentify 256 devices at a time, applying policies to all of thosedevices at once through the use of a single identifier.

In another variation it is possible to maintain CP database 100 ofsystem 30 at base stations 34 rather than at cell-phones 50. Forexample, a cell-phone 50 can be operable to access CP database 100 insystem 30 by communicating with a base station 34.

In yet another variation, each cell-phone 50 could maintain a copy of CPdatabase 100, and update its copy when in range of a base station 34.According to this variation, a cell-phone 50's copy of CP database 100could be updated using different methodologies. For example, thetransfer of CP database 100 could be made selectively, transferring thedatabase only when a difference is found between CP database 100maintained on the base station and the copy maintained on a cell-phone50. It should now be apparent that a variety of different methods couldbe employed for determining a difference. For example, each field of CPdatabase 100 can be compared to the equivalent field of the copymaintained on an individual cell-phone 50 to determine whether there areany differences. Alternatively, sizes of the database files or the dateof modification of these files could be compared. Moreover, thecomparison can be done either by the base station 34, cell-phone 50 orsome other computer trusted with maintaining synchronized copies of CPdatabase 100 between the base stations and the roaming devices. Allthese methods, and other methods for determining whether a CP databaseshould be transferred to cell-phone 50 are within the scope of thisinvention.

In another variation, CP database 100 can be updated through apeer-to-peer connection between cell-phones 50. It should now beapparent that this peer-to-peer connection can take the form of a wiredconnection such as a Universal Serial Bus (“USB”) connection, across-linked peer-to-peer Ethernet connection, or a wireless connectionsuch as a Bluetooth connection, an infrared (IR) connection, or apeer-to-peer IEEE 801.11b/g connection. In yet another variation,database 122 could be updated through a Local Area Connection (“LAN”) towhich both cell-phone 50 and at least one base station 34 are connected.

In other variations, the policy can be stored in forms other than adatabase such as a lookup table. Moreover, the policy can be stored at acomputer other than one at base station 34. For example, the policy canbe stored on routers and other dedicated computing devices. Also, thepolicy could be stored on a computer or other electronic device which isoperated by an entity other than the office that operates the mobiledevices.

In yet another variation, information from other sources besidesincoming phone calls can be used for updating CP policy database 100.For example, phone numbers of unwanted callers can be identified frompublic sources such as web sites, and entered into CP database 100manually. Moreover, the selection of which numbers to enter into CPdatabase 100 can be done by either users of cell-phones 50, operators ofbase stations 34, some other third party operator entrusted withmaintaining CP database 100, or some combination thereof. Furthermore,any entries into CP database 100 made by the user of a cell-phone 50 maybe subject to further verification prior to becoming available to allcell-phones 50.

Another variation of the invention could employ different types ofsubscriber devices in place of cell-phones. It should now be apparentthat these subscriber devices can take the form of enhanced personaldigital assistants such as those manufactured by Research In MotionLimited of Waterloo, Ontario, Canada, and PalmOne, Inc. of Milpitas,Calif. USA. In yet another variation policies could be used for othercommunication types besides voice calls, such as text messaging.

While portions of the foregoing description may individually referencesystems 30 and 30 a, it should now be apparent that all or parts of eachof these systems can be combined as appropriate or otherwise desired.Accordingly, those of skill in the art will recognize that when certainreferences are made to one of these systems, and/or its components, suchteachings can also be applicable to other ones of those systems.

The above-described embodiments of the invention are intended to beexamples of the present invention and alterations and modifications maybe effected thereto, by those of skill in the art, without departingfrom the scope of the invention which is defined solely by the claimsappended hereto.

The invention claimed is:
 1. A method of managing a communication policyin a voice telephony network having a plurality of subscriber devicescomprising the steps of: maintaining, at a policy server, acommunication policy for distribution to the subscriber devices, thecommunication policy containing at least one identifier for causing thesubscriber devices to reject voice calls having the at least oneidentifier; receiving, at the policy server, a notice that a first voicecall was rejected by one of the subscriber devices based on thecommunication policy; the first voice call having an originatingidentifier; maintaining, at the policy server, a record of calls havingthe originating identifier rejected based on the communication policyand updating the record of rejections based on the notice; the record ofrejections representing the subscriber devices that have rejected a callfrom the identifier and comprising a device identifier of the one of thesubscriber devices, and the originating identifier; after the receiving,receiving a second notice of rejection respective to the originatingidentifier, after a passage of time from the receiving of the notice ofrejection; and updating the communication policy if the record ofrejections matches a predefined criteria, the criteria being an extentof time, the updating of the communication policy being performed suchthat the originating identifier is removed from the communication policyif the passage of time is greater than the extent of time.
 2. The methodof claim 1 wherein the record of rejections represents a number of timescalls have been rejected from the identifier.
 3. The method of claim 1wherein the criteria is above a predetermined threshold.
 4. A policyserver comprising: a server network interface for communicating with aplurality of subscriber devices via a voice telephony networkinterconnecting the devices and the network; and at least one persistentstorage device for maintaining a communication policy for distributionto the subscriber devices, the communication policy containing at leastone identifier for causing the subscriber devices to reject voice callshaving the at least one identifier; a processor interconnecting theinterface and the at least one persistent storage device; the processorfor receiving a notice that a first voice call was rejected by one ofthe subscriber devices based on the communication policy; the firstvoice call having an originating identifier; the at least one persistentstorage device further for maintaining a record of calls having theoriginating identifier rejected based on the communication policy; theprocessor operable to update the record of rejections based on thenotice; the record of rejections representing the subscriber devicesthat have rejected a call from the identifier and comprising a deviceidentifier of the one of the subscriber devices and the originatingidentifier; and the processor further operable, after receiving thenotice, to receive a second notice of rejection respective to theoriginating identifier, after a passage of time from the receiving ofthe notice, and to update the communication policy if the record ofrejections match a predefined criteria, the criteria being an extent oftime, the updating of the communication policy being performed such thatthe originating identifier is removed from the communication policy ifthe passage of time is greater than the extent of time.
 5. The policyserver of claim 4 wherein the record of rejections represents a numberof times calls have been rejected from the identifier.
 6. The policyserver of claim 4 wherein the criteria is above a predeterminedthreshold.
 7. A non-transitory computer-readable medium storing aplurality of programming instructions executable by a processor forimplementing a method of managing a communication policy in a voicetelephony network having a plurality of subscriber devices comprisingthe steps of: maintaining, at a policy server, a communication policyfor distribution to the subscriber devices, the communication policycontaining at least one identifier for causing the subscriber devices toreject voice calls having the at least one identifier; receiving, at thepolicy server, a notice that a first voice call was rejected by one ofthe subscriber devices based on the communication policy; the firstvoice call having an originating identifier; maintaining, at the policyserver, a record of calls having the originating identifier rejectedbased on the communication policy and updating the record of rejectionsbased on the notice; the record of rejections representing thesubscriber devices that have rejected a call from the identifier andcomprising a device identifier of the one of the subscriber devices, andthe originating identifier; after the receiving, receiving a secondnotice of rejection respective to the originating identifier, after apassage of time from the receiving of the notice of rejection; andupdating the communication policy if the record of rejections matches apredefined criteria, the criteria being an extent of time, the updatingof the communication policy being performed such that the originatingidentifier is removed from the communication policy if the passage oftime is greater than the extent of time.
 8. The non-transitorycomputer-readable medium of claim 7 wherein the record of rejectionsrepresents a number of times calls have been rejected from theidentifier.
 9. The non-transitory computer-readable medium of claim 7wherein the criteria is above a predetermined threshold.